#if defined(BUILD_UMM_MALLOC_C)
/* integrity check (UMM_INTEGRITY_CHECK) {{{ */
#if defined(UMM_INTEGRITY_CHECK)

#include <stdint.h>
#include <stdbool.h>

/*
 * Perform integrity check of the whole heap data. Returns 1 in case of
 * success, 0 otherwise.
 *
 * First of all, iterate through all free blocks, and check that all backlinks
 * match (i.e. if block X has next free block Y, then the block Y should have
 * previous free block set to X).
 *
 * Additionally, we check that each free block is correctly marked with
 * `UMM_FREELIST_MASK` on the `next` pointer: during iteration through free
 * list, we mark each free block by the same flag `UMM_FREELIST_MASK`, but
 * on `prev` pointer. We'll check and unmark it later.
 *
 * Then, we iterate through all blocks in the heap, and similarly check that
 * all backlinks match (i.e. if block X has next block Y, then the block Y
 * should have previous block set to X).
 *
 * But before checking each backlink, we check that the `next` and `prev`
 * pointers are both marked with `UMM_FREELIST_MASK`, or both unmarked.
 * This way, we ensure that the free flag is in sync with the free pointers
 * chain.
 */
bool umm_integrity_check(void) {
    UMM_CRITICAL_DECL(id_integrity);
    bool ok = true;
    uint16_t prev;
    uint16_t cur;

    UMM_CHECK_INITIALIZED();

    /* Iterate through all free blocks */
    prev = 0;
    UMM_CRITICAL_ENTRY(id_integrity);

    umm_heap_context_t *_context = umm_get_current_heap();

    while (1) {
        cur = UMM_NFREE(prev);

        /* Check that next free block number is valid */
        if (cur >= UMM_NUMBLOCKS) {
            DBGLOG_FUNCTION("heap integrity broken: too large next free num: %d "
                "(in block %d, addr 0x%08x)\n", cur, prev,
                DBGLOG_32_BIT_PTR(&UMM_NBLOCK(prev)));
            ok = false;
            goto clean;
        }
        if (cur == 0) {
            /* No more free blocks */
            break;
        }

        /* Check if prev free block number matches */
        if (UMM_PFREE(cur) != prev) {
            DBGLOG_FUNCTION("heap integrity broken: free links don't match: "
                "%d -> %d, but %d -> %d\n",
                prev, cur, cur, UMM_PFREE(cur));
            ok = false;
            goto clean;
        }

        UMM_PBLOCK(cur) |= UMM_FREELIST_MASK;

        prev = cur;
    }

    /* Iterate through all blocks */
    prev = 0;
    while (1) {
        cur = UMM_NBLOCK(prev) & UMM_BLOCKNO_MASK;

        /* Check that next block number is valid */
        if (cur >= UMM_NUMBLOCKS) {
            DBGLOG_FUNCTION("heap integrity broken: too large next block num: %d "
                "(in block %d, addr 0x%08x)\n", cur, prev,
                DBGLOG_32_BIT_PTR(&UMM_NBLOCK(prev)));
            ok = false;
            goto clean;
        }
        if (cur == 0) {
            /* No more blocks */
            break;
        }

        /* make sure the free mark is appropriate, and unmark it */
        if ((UMM_NBLOCK(cur) & UMM_FREELIST_MASK)
            != (UMM_PBLOCK(cur) & UMM_FREELIST_MASK)) {
            DBGLOG_FUNCTION("heap integrity broken: mask wrong at addr 0x%08x: n=0x%x, p=0x%x\n",
                DBGLOG_32_BIT_PTR(&UMM_NBLOCK(cur)),
                (UMM_NBLOCK(cur) & UMM_FREELIST_MASK),
                (UMM_PBLOCK(cur) & UMM_FREELIST_MASK));
            ok = false;
            goto clean;
        }

        /* make sure the block list is sequential */
        if (cur <= prev) {
            DBGLOG_FUNCTION("heap integrity broken: next block %d is before prev this one "
                "(in block %d, addr 0x%08x)\n", cur, prev,
                DBGLOG_32_BIT_PTR(&UMM_NBLOCK(prev)));
            ok = false;
            goto clean;
        }

/* unmark */
        UMM_PBLOCK(cur) &= UMM_BLOCKNO_MASK;

        /* Check if prev block number matches */
        if (UMM_PBLOCK(cur) != prev) {
            DBGLOG_FUNCTION("heap integrity broken: block links don't match: "
                "%d -> %d, but %d -> %d\n",
                prev, cur, cur, UMM_PBLOCK(cur));
            ok = false;
            goto clean;
        }

        prev = cur;
    }

clean:
    UMM_CRITICAL_EXIT(id_integrity);
    if (!ok) {
        UMM_HEAP_CORRUPTION_CB();
    }
    return ok;
}

#endif
/* }}} */
#endif  // defined(BUILD_UMM_MALLOC_C)
